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Please help me to answer this 2 questions. Please.... Please select TWO options as your correct answers. TWO correct answers will give you correct answer. WRONG answers If you choose ONE answer only or only ONE answer is correct. 1) Consider two masses m 1 , and m 2 , at the top of two frictionless inclined planes. Both masses start from rest at the same height. However, the plane on which m 1 sits is at an angle of 30° with the horizontal, while the plane on which m, sits is at 60 degrees . If the masses are released, (i) which is going faster at the bottom of its plane? (ii) What will be the speed if the masses are double on each inclined plane? a) m1 b) m2 c) They both are going at the same speed d) They will accelerate down the incline e) They will will slide down at constant speed

Please help me to answer this 2 questions. Please.... Please select TWO options as your correct answers. TWO correct answers will give you correct answer. WRONG answers If you choose ONE answer only or only ONE answer is correct. 1) Consider two masses m 1 , and m 2 , at the top of two frictionless inclined planes. Both masses start from rest at the same height. However, the plane on which m 1 sits is at an angle of 30° with the horizontal, while the plane on which m, sits is at 60 degrees . If the masses are released, (i) which is going faster at the bottom of its plane? (ii) What will be the speed if the masses are double on each inclined plane? a) m1 b) m2 c) They both are going at the same speed d) They will accelerate down the incline e) They will will slide down at constant speed

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Please help me to answer this 2 questions. Please....

Please select TWO options as your correct answers. TWO correct answers will give you correct answer.
WRONG answers If you choose ONE answer only or only ONE answer is correct.

1) Consider two masses m 1 , and m 2 , at the top of two frictionless inclined planes. Both masses start from rest at the same height. However, the plane on which m 1 sits is at an angle of 30° with the horizontal, while the plane on which m, sits is at 60 degrees . If the masses are released, (i) which is going faster at the bottom of its plane? (ii) What will be the speed if the masses are double on each inclined plane?

a) m1

b) m2

c) They both are going at the same speed

d) They will accelerate down the incline

e) They will will slide down at constant speed

 

2) Consider three (3) drinking glasses. All three have the same area base, and all three are filled to the same depth with water. Glass A is cylindrical. Glass B is wider at the top than at the bottom, and so holds more water than A. Glass C is narrower at the top than at the bottom, and so holds less water than A. Which glass has the greatest liquid pressure at the bottom? What is

the reason behind this phenomenon?

A. All three are equal

B. Glass A and B only

C. Glass B and C only

D. The pressure depends on the height of the water above it.

E.  The pressure depends on the area base of the drinking glasses,

Consider three (3) drinking glasses. All three have the same area base, and all three are filled to the same depth with water. Glass A is cylindrical. Glass B is wider at the top than at the bottom, and so holds more water than A. Glass C is narrower at the top than at the bottom, and so holds less water than A. Which glass has the greatest liquid pressure at the bottom? What is the reason behind this phenomeIon? A. All three are equal B. Glass A and B only C Glass B and C only D. The pressiure depends on the height of the water above it. E The pressure depends on the area base of the drinking glasses.
Transcribed Image Text:Consider three (3) drinking glasses. All three have the same area base, and all three are filled to the same depth with water. Glass A is cylindrical. Glass B is wider at the top than at the bottom, and so holds more water than A. Glass C is narrower at the top than at the bottom, and so holds less water than A. Which glass has the greatest liquid pressure at the bottom? What is the reason behind this phenomeIon? A. All three are equal B. Glass A and B only C Glass B and C only D. The pressiure depends on the height of the water above it. E The pressure depends on the area base of the drinking glasses.
Consider two masses m, and m, at the top of two frictionless inclined planes. Both masses stat from rest at the same height. However, the plane on which sits is at an angle of 30° with the horizontal, while the plane on which m, sits is at 60°. If the masses are released, (1) which is going faster at the bottom of its plane? (ii) What will be the specd if the masses arc double on cach inclined plae? A. B. M C. They both are gomg al he same speed D. They will accelerate down the incline E. They will slide down at constant speed
Transcribed Image Text:Consider two masses m, and m, at the top of two frictionless inclined planes. Both masses stat from rest at the same height. However, the plane on which sits is at an angle of 30° with the horizontal, while the plane on which m, sits is at 60°. If the masses are released, (1) which is going faster at the bottom of its plane? (ii) What will be the specd if the masses arc double on cach inclined plae? A. B. M C. They both are gomg al he same speed D. They will accelerate down the incline E. They will slide down at constant speed
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